Sequential hydrogen and methane production using the residual biocatalyst of biodiesel synthesis as raw material

dos Santos Stella Buback; Faber Mariana de Oliveira; de Araujo Collaco Ana Cristina; Aguieiras Erika Cristina G.; Freire Denise Maria G.; Langone Marta A. P.; Ferreira-Leitao Viridiana S.

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Sequential hydrogen and methane production using the residual biocatalyst of biodiesel synthesis as raw material

机译：使用生物柴油合成残留生物催化剂作为原料的顺序氢和甲烷生产

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Residual Fermented Solid (RFS) is the used biocatalyst obtained after enzymatic biodiesel production carried out applying the fermented solid (FS) with lipase activity. Approximately 350 g of RFS are generated for each liter of biodiesel produced from palm residues fermented solid. In this study, this residue was used for the first time as a raw material for biological hydrogen production through dark fermentation and sequential application of the hydrogen production liquid waste (HPLW) for methane obtainment via anaerobic digestion. The RFS was composed mostly of oils and fats (60% wt.%), and carbohydrates, such as mannose, glucose, and xylose. Hydrogen yield reached 239 +/- 44 mL H-2/L after 24 h of fermentation using 31 gRFS/L at the beginning of the process. Additionally, 204 +/- 13 mL CH4/g COD were produced through the anaerobic digestion of HPLW, which represented 61% of efficiency. (C) 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.

机译：残留的发酵固体（RFS）是在将发酵固体（FS）与脂肪酶活性施加的酶生物柴油生产后获得的二手生物催化剂。为从棕榈残基产生的固体产生的每升生物柴油产生约350g RF。在该研究中，将该残余物首次使用通过厌氧消化的乳氢生产液体废物（HPLW）的乳氢产生液体废物（HPLW）作为生物氢生产的原料。 RFS主要由油脂和脂肪（60％重量％）组成，碳水化合物，例如甘露糖，葡萄糖和木糖。在该过程开始时使用31 GRF / L 24小时后，氢收率在24小时后达到239 +/- 44ml H-2 / L. 另外，通过HPLW的厌氧消化产生204 +/- 13ml CH 4 / g COD，其表示效率的61％。（c）2021氢能出版物LLC。 elsevier有限公司出版。保留所有权利。

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来源
《International journal of hydrogen energy》 |2021年第46期|23658-23669|共12页
作者
dos Santos Stella Buback; Faber Mariana de Oliveira; de Araujo Collaco Ana Cristina; Aguieiras Erika Cristina G.; Freire Denise Maria G.; Langone Marta A. P.; Ferreira-Leitao Viridiana S.;
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作者单位

Minist Sci Technol & Innovat MCTI Lab Biocatalysis Natl Inst Technol BR-20081312 Rio De Janeiro RJ Brazil|Rio de Janeiro State Univ UERJ Chem Inst BR-20550900 Rio De Janeiro RJ Brazil|Univ Fed Rio de Janeiro Dept Biochem BR-21941909 Rio De Janeiro RJ Brazil;

Minist Sci Technol & Innovat MCTI Lab Biocatalysis Natl Inst Technol BR-20081312 Rio De Janeiro RJ Brazil|Univ Fed Rio de Janeiro Dept Biochem BR-21941909 Rio De Janeiro RJ Brazil;

Univ Fed Rio de Janeiro Dept Biochem BR-21941909 Rio De Janeiro RJ Brazil;

Univ Fed Rio de Janeiro Dept Biochem BR-21941909 Rio De Janeiro RJ Brazil|Univ Fed Rio de Janeiro Campus UFRJ Duque Caxias Prof Geraldo Cidade BR-25240005 Rio De Janeiro RJ Brazil;

Univ Fed Rio de Janeiro Dept Biochem BR-21941909 Rio De Janeiro RJ Brazil;

Rio de Janeiro State Univ UERJ Chem Inst BR-20550900 Rio De Janeiro RJ Brazil|Fed Inst Educ Sci & Technol Rio de Janeiro IFRJ BR-20260100 Rio De Janeiro RJ Brazil;

Minist Sci Technol & Innovat MCTI Lab Biocatalysis Natl Inst Technol BR-20081312 Rio De Janeiro RJ Brazil|Univ Fed Rio de Janeiro Dept Biochem BR-21941909 Rio De Janeiro RJ Brazil;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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关键词
Residual fermented solid; Biohydrogen; Biomethane; Dark fermentation; Anaerobic digestion; Palm oil biorefinery;

机译：残留的发酵固体;生物甲烷;生物甲烷;黑暗发酵;厌氧消化;棕榈油生物料理;

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1. Biomass-bound biocatalysts for biodiesel production: Tuning a lipolytic activity from Aspergillus niger MYA 135 by submerged fermentation using agro-industrial raw materials and waste products [J] . Lucia Regner Erika, Natalia Salvatierra Hebe, Domingo Baigori Mario, Biomass & bioenergy . 2019,第JANa期

机译：用于生物柴油生产的生物质结合生物催化剂：使用农用工业原料和废料通过深层发酵来改善黑曲霉MYA 135的脂解活性
2. Sequential parametric optimization of methane production from different sources of forest raw material [J] . Leonidas Matsakas, Ulrika Rova, Paul Christakopoulos Frontiers in Microbiology . 2015,第6期

机译：从不同森林原料来源的甲烷生产的顺序参数优化
3. The optimization of biohydrogen production by bacteria using residual glycerol from biodiesel synthesis [J] . JANAINA B. COSTA, DANIELE M. ROSSI, ELISANGELA A. DE SOUZA, Journal of Environmental Science and Health . 2011,第13期

机译：利用生物柴油合成过程中残留的甘油优化细菌生产生物氢的能力
4. Optimize the process that choose the acetic acid to pretreat the straw biomass of raw materials which used to photosynthetic hydrogen production [C] . Danping Jiang, Quanguo Zhang, Xiangwei Shen, International Conference on Energy and Environmental Protection . 2012

机译：优化选择醋酸的过程，以预处理用于光合氢生产的原料秸秆生物量
5. The Production of Biodiesel from Cottonseed Oil Using Rhizopus oryzae Whole Cell Biocatalysts. [D] . Athalye, Sneha Kishor. 2012

机译：使用米根霉全细胞生物催化剂从棉籽油生产生物柴油。
6. Biodiesel production from alternative raw materials using a heterogeneous low ordered biosilicified enzyme as biocatalyst [O] . Gabriel Orlando Ferrero, Edgar Maximiliano Sánchez Faba, Griselda Alejandra Eimer 2021

机译：生物柴油从使用异质低有序的生物化酶作为生物催化剂的替代原料生产
7. Hydrogen Production from Residual Glycerol in Biodiesel Synthesis by Photocatalytic Reforming [O] . Masahide YASUDA, Ryo KUROGI, Takayuki TOMO, 2014

机译：通过光催化重整，来自生物柴油合成中残留甘油的氢气产生

Sequential hydrogen and methane production using the residual biocatalyst of biodiesel synthesis as raw material

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